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path: root/contrib/libs/llvm12/lib/ProfileData/InstrProfWriter.cpp
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//===- InstrProfWriter.cpp - Instrumented profiling writer ----------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
//
// This file contains support for writing profiling data for clang's
// instrumentation based PGO and coverage.
//
//===----------------------------------------------------------------------===//

#include "llvm/ProfileData/InstrProfWriter.h"
#include "llvm/ADT/STLExtras.h"
#include "llvm/ADT/StringRef.h"
#include "llvm/IR/ProfileSummary.h"
#include "llvm/ProfileData/InstrProf.h"
#include "llvm/ProfileData/ProfileCommon.h"
#include "llvm/Support/Endian.h"
#include "llvm/Support/EndianStream.h"
#include "llvm/Support/Error.h"
#include "llvm/Support/MemoryBuffer.h"
#include "llvm/Support/OnDiskHashTable.h"
#include "llvm/Support/raw_ostream.h"
#include <algorithm>
#include <cstdint>
#include <memory>
#include <string>
#include <tuple>
#include <utility>
#include <vector>

using namespace llvm;

// A struct to define how the data stream should be patched. For Indexed
// profiling, only uint64_t data type is needed.
struct PatchItem {
  uint64_t Pos; // Where to patch.
  uint64_t *D;  // Pointer to an array of source data.
  int N;        // Number of elements in \c D array.
};

namespace llvm {

// A wrapper class to abstract writer stream with support of bytes
// back patching.
class ProfOStream {
public:
  ProfOStream(raw_fd_ostream &FD)
      : IsFDOStream(true), OS(FD), LE(FD, support::little) {}
  ProfOStream(raw_string_ostream &STR)
      : IsFDOStream(false), OS(STR), LE(STR, support::little) {}

  uint64_t tell() { return OS.tell(); }
  void write(uint64_t V) { LE.write<uint64_t>(V); }

  // \c patch can only be called when all data is written and flushed.
  // For raw_string_ostream, the patch is done on the target string
  // directly and it won't be reflected in the stream's internal buffer.
  void patch(PatchItem *P, int NItems) {
    using namespace support;

    if (IsFDOStream) {
      raw_fd_ostream &FDOStream = static_cast<raw_fd_ostream &>(OS);
      for (int K = 0; K < NItems; K++) {
        FDOStream.seek(P[K].Pos);
        for (int I = 0; I < P[K].N; I++)
          write(P[K].D[I]);
      }
    } else {
      raw_string_ostream &SOStream = static_cast<raw_string_ostream &>(OS);
      std::string &Data = SOStream.str(); // with flush
      for (int K = 0; K < NItems; K++) {
        for (int I = 0; I < P[K].N; I++) {
          uint64_t Bytes = endian::byte_swap<uint64_t, little>(P[K].D[I]);
          Data.replace(P[K].Pos + I * sizeof(uint64_t), sizeof(uint64_t),
                       (const char *)&Bytes, sizeof(uint64_t));
        }
      }
    }
  }

  // If \c OS is an instance of \c raw_fd_ostream, this field will be
  // true. Otherwise, \c OS will be an raw_string_ostream.
  bool IsFDOStream;
  raw_ostream &OS;
  support::endian::Writer LE;
};

class InstrProfRecordWriterTrait {
public:
  using key_type = StringRef;
  using key_type_ref = StringRef;

  using data_type = const InstrProfWriter::ProfilingData *const;
  using data_type_ref = const InstrProfWriter::ProfilingData *const;

  using hash_value_type = uint64_t;
  using offset_type = uint64_t;

  support::endianness ValueProfDataEndianness = support::little;
  InstrProfSummaryBuilder *SummaryBuilder;
  InstrProfSummaryBuilder *CSSummaryBuilder;

  InstrProfRecordWriterTrait() = default;

  static hash_value_type ComputeHash(key_type_ref K) {
    return IndexedInstrProf::ComputeHash(K);
  }

  static std::pair<offset_type, offset_type>
  EmitKeyDataLength(raw_ostream &Out, key_type_ref K, data_type_ref V) {
    using namespace support;

    endian::Writer LE(Out, little);

    offset_type N = K.size();
    LE.write<offset_type>(N);

    offset_type M = 0;
    for (const auto &ProfileData : *V) {
      const InstrProfRecord &ProfRecord = ProfileData.second;
      M += sizeof(uint64_t); // The function hash
      M += sizeof(uint64_t); // The size of the Counts vector
      M += ProfRecord.Counts.size() * sizeof(uint64_t);

      // Value data
      M += ValueProfData::getSize(ProfileData.second);
    }
    LE.write<offset_type>(M);

    return std::make_pair(N, M);
  }

  void EmitKey(raw_ostream &Out, key_type_ref K, offset_type N) {
    Out.write(K.data(), N);
  }

  void EmitData(raw_ostream &Out, key_type_ref, data_type_ref V, offset_type) {
    using namespace support;

    endian::Writer LE(Out, little);
    for (const auto &ProfileData : *V) {
      const InstrProfRecord &ProfRecord = ProfileData.second;
      if (NamedInstrProfRecord::hasCSFlagInHash(ProfileData.first))
        CSSummaryBuilder->addRecord(ProfRecord);
      else
        SummaryBuilder->addRecord(ProfRecord);

      LE.write<uint64_t>(ProfileData.first); // Function hash
      LE.write<uint64_t>(ProfRecord.Counts.size());
      for (uint64_t I : ProfRecord.Counts)
        LE.write<uint64_t>(I);

      // Write value data
      std::unique_ptr<ValueProfData> VDataPtr =
          ValueProfData::serializeFrom(ProfileData.second);
      uint32_t S = VDataPtr->getSize();
      VDataPtr->swapBytesFromHost(ValueProfDataEndianness);
      Out.write((const char *)VDataPtr.get(), S);
    }
  }
};

} // end namespace llvm

InstrProfWriter::InstrProfWriter(bool Sparse, bool InstrEntryBBEnabled) 
    : Sparse(Sparse), InstrEntryBBEnabled(InstrEntryBBEnabled), 
      InfoObj(new InstrProfRecordWriterTrait()) {} 

InstrProfWriter::~InstrProfWriter() { delete InfoObj; }

// Internal interface for testing purpose only.
void InstrProfWriter::setValueProfDataEndianness(
    support::endianness Endianness) {
  InfoObj->ValueProfDataEndianness = Endianness;
}

void InstrProfWriter::setOutputSparse(bool Sparse) {
  this->Sparse = Sparse;
}

void InstrProfWriter::addRecord(NamedInstrProfRecord &&I, uint64_t Weight,
                                function_ref<void(Error)> Warn) {
  auto Name = I.Name;
  auto Hash = I.Hash;
  addRecord(Name, Hash, std::move(I), Weight, Warn);
}

void InstrProfWriter::overlapRecord(NamedInstrProfRecord &&Other,
                                    OverlapStats &Overlap,
                                    OverlapStats &FuncLevelOverlap,
                                    const OverlapFuncFilters &FuncFilter) {
  auto Name = Other.Name;
  auto Hash = Other.Hash;
  Other.accumulateCounts(FuncLevelOverlap.Test);
  if (FunctionData.find(Name) == FunctionData.end()) {
    Overlap.addOneUnique(FuncLevelOverlap.Test);
    return;
  }
  if (FuncLevelOverlap.Test.CountSum < 1.0f) {
    Overlap.Overlap.NumEntries += 1;
    return;
  }
  auto &ProfileDataMap = FunctionData[Name];
  bool NewFunc;
  ProfilingData::iterator Where;
  std::tie(Where, NewFunc) =
      ProfileDataMap.insert(std::make_pair(Hash, InstrProfRecord()));
  if (NewFunc) {
    Overlap.addOneMismatch(FuncLevelOverlap.Test);
    return;
  }
  InstrProfRecord &Dest = Where->second;

  uint64_t ValueCutoff = FuncFilter.ValueCutoff;
  if (!FuncFilter.NameFilter.empty() &&
      Name.find(FuncFilter.NameFilter) != Name.npos)
    ValueCutoff = 0;

  Dest.overlap(Other, Overlap, FuncLevelOverlap, ValueCutoff);
}

void InstrProfWriter::addRecord(StringRef Name, uint64_t Hash,
                                InstrProfRecord &&I, uint64_t Weight,
                                function_ref<void(Error)> Warn) {
  auto &ProfileDataMap = FunctionData[Name];

  bool NewFunc;
  ProfilingData::iterator Where;
  std::tie(Where, NewFunc) =
      ProfileDataMap.insert(std::make_pair(Hash, InstrProfRecord()));
  InstrProfRecord &Dest = Where->second;

  auto MapWarn = [&](instrprof_error E) {
    Warn(make_error<InstrProfError>(E));
  };

  if (NewFunc) {
    // We've never seen a function with this name and hash, add it.
    Dest = std::move(I);
    if (Weight > 1)
      Dest.scale(Weight, 1, MapWarn); 
  } else {
    // We're updating a function we've seen before.
    Dest.merge(I, Weight, MapWarn);
  }

  Dest.sortValueData();
}

void InstrProfWriter::mergeRecordsFromWriter(InstrProfWriter &&IPW,
                                             function_ref<void(Error)> Warn) {
  for (auto &I : IPW.FunctionData)
    for (auto &Func : I.getValue())
      addRecord(I.getKey(), Func.first, std::move(Func.second), 1, Warn);
}

bool InstrProfWriter::shouldEncodeData(const ProfilingData &PD) {
  if (!Sparse)
    return true;
  for (const auto &Func : PD) {
    const InstrProfRecord &IPR = Func.second;
    if (llvm::any_of(IPR.Counts, [](uint64_t Count) { return Count > 0; }))
      return true;
  }
  return false;
}

static void setSummary(IndexedInstrProf::Summary *TheSummary,
                       ProfileSummary &PS) {
  using namespace IndexedInstrProf;

  std::vector<ProfileSummaryEntry> &Res = PS.getDetailedSummary();
  TheSummary->NumSummaryFields = Summary::NumKinds;
  TheSummary->NumCutoffEntries = Res.size();
  TheSummary->set(Summary::MaxFunctionCount, PS.getMaxFunctionCount());
  TheSummary->set(Summary::MaxBlockCount, PS.getMaxCount());
  TheSummary->set(Summary::MaxInternalBlockCount, PS.getMaxInternalCount());
  TheSummary->set(Summary::TotalBlockCount, PS.getTotalCount());
  TheSummary->set(Summary::TotalNumBlocks, PS.getNumCounts());
  TheSummary->set(Summary::TotalNumFunctions, PS.getNumFunctions());
  for (unsigned I = 0; I < Res.size(); I++)
    TheSummary->setEntry(I, Res[I]);
}

void InstrProfWriter::writeImpl(ProfOStream &OS) {
  using namespace IndexedInstrProf;

  OnDiskChainedHashTableGenerator<InstrProfRecordWriterTrait> Generator;

  InstrProfSummaryBuilder ISB(ProfileSummaryBuilder::DefaultCutoffs);
  InfoObj->SummaryBuilder = &ISB;
  InstrProfSummaryBuilder CSISB(ProfileSummaryBuilder::DefaultCutoffs);
  InfoObj->CSSummaryBuilder = &CSISB;

  // Populate the hash table generator.
  for (const auto &I : FunctionData)
    if (shouldEncodeData(I.getValue()))
      Generator.insert(I.getKey(), &I.getValue());
  // Write the header.
  IndexedInstrProf::Header Header;
  Header.Magic = IndexedInstrProf::Magic;
  Header.Version = IndexedInstrProf::ProfVersion::CurrentVersion;
  if (ProfileKind == PF_IRLevel)
    Header.Version |= VARIANT_MASK_IR_PROF;
  if (ProfileKind == PF_IRLevelWithCS) {
    Header.Version |= VARIANT_MASK_IR_PROF;
    Header.Version |= VARIANT_MASK_CSIR_PROF;
  }
  if (InstrEntryBBEnabled) 
    Header.Version |= VARIANT_MASK_INSTR_ENTRY; 
 
  Header.Unused = 0;
  Header.HashType = static_cast<uint64_t>(IndexedInstrProf::HashType);
  Header.HashOffset = 0;
  int N = sizeof(IndexedInstrProf::Header) / sizeof(uint64_t);

  // Only write out all the fields except 'HashOffset'. We need
  // to remember the offset of that field to allow back patching
  // later.
  for (int I = 0; I < N - 1; I++)
    OS.write(reinterpret_cast<uint64_t *>(&Header)[I]);

  // Save the location of Header.HashOffset field in \c OS.
  uint64_t HashTableStartFieldOffset = OS.tell();
  // Reserve the space for HashOffset field.
  OS.write(0);

  // Reserve space to write profile summary data.
  uint32_t NumEntries = ProfileSummaryBuilder::DefaultCutoffs.size();
  uint32_t SummarySize = Summary::getSize(Summary::NumKinds, NumEntries);
  // Remember the summary offset.
  uint64_t SummaryOffset = OS.tell();
  for (unsigned I = 0; I < SummarySize / sizeof(uint64_t); I++)
    OS.write(0);
  uint64_t CSSummaryOffset = 0;
  uint64_t CSSummarySize = 0;
  if (ProfileKind == PF_IRLevelWithCS) {
    CSSummaryOffset = OS.tell();
    CSSummarySize = SummarySize / sizeof(uint64_t);
    for (unsigned I = 0; I < CSSummarySize; I++)
      OS.write(0);
  }

  // Write the hash table.
  uint64_t HashTableStart = Generator.Emit(OS.OS, *InfoObj);

  // Allocate space for data to be serialized out.
  std::unique_ptr<IndexedInstrProf::Summary> TheSummary =
      IndexedInstrProf::allocSummary(SummarySize);
  // Compute the Summary and copy the data to the data
  // structure to be serialized out (to disk or buffer).
  std::unique_ptr<ProfileSummary> PS = ISB.getSummary();
  setSummary(TheSummary.get(), *PS);
  InfoObj->SummaryBuilder = nullptr;

  // For Context Sensitive summary.
  std::unique_ptr<IndexedInstrProf::Summary> TheCSSummary = nullptr;
  if (ProfileKind == PF_IRLevelWithCS) {
    TheCSSummary = IndexedInstrProf::allocSummary(SummarySize);
    std::unique_ptr<ProfileSummary> CSPS = CSISB.getSummary();
    setSummary(TheCSSummary.get(), *CSPS);
  }
  InfoObj->CSSummaryBuilder = nullptr;

  // Now do the final patch:
  PatchItem PatchItems[] = {
      // Patch the Header.HashOffset field.
      {HashTableStartFieldOffset, &HashTableStart, 1},
      // Patch the summary data.
      {SummaryOffset, reinterpret_cast<uint64_t *>(TheSummary.get()),
       (int)(SummarySize / sizeof(uint64_t))},
      {CSSummaryOffset, reinterpret_cast<uint64_t *>(TheCSSummary.get()),
       (int)CSSummarySize}};

  OS.patch(PatchItems, sizeof(PatchItems) / sizeof(*PatchItems));
}

void InstrProfWriter::write(raw_fd_ostream &OS) {
  // Write the hash table.
  ProfOStream POS(OS);
  writeImpl(POS);
}

std::unique_ptr<MemoryBuffer> InstrProfWriter::writeBuffer() {
  std::string Data;
  raw_string_ostream OS(Data);
  ProfOStream POS(OS);
  // Write the hash table.
  writeImpl(POS);
  // Return this in an aligned memory buffer.
  return MemoryBuffer::getMemBufferCopy(Data);
}

static const char *ValueProfKindStr[] = {
#define VALUE_PROF_KIND(Enumerator, Value, Descr) #Enumerator,
#include "llvm/ProfileData/InstrProfData.inc"
};

void InstrProfWriter::writeRecordInText(StringRef Name, uint64_t Hash,
                                        const InstrProfRecord &Func,
                                        InstrProfSymtab &Symtab,
                                        raw_fd_ostream &OS) {
  OS << Name << "\n";
  OS << "# Func Hash:\n" << Hash << "\n";
  OS << "# Num Counters:\n" << Func.Counts.size() << "\n";
  OS << "# Counter Values:\n";
  for (uint64_t Count : Func.Counts)
    OS << Count << "\n";

  uint32_t NumValueKinds = Func.getNumValueKinds();
  if (!NumValueKinds) {
    OS << "\n";
    return;
  }

  OS << "# Num Value Kinds:\n" << Func.getNumValueKinds() << "\n";
  for (uint32_t VK = 0; VK < IPVK_Last + 1; VK++) {
    uint32_t NS = Func.getNumValueSites(VK);
    if (!NS)
      continue;
    OS << "# ValueKind = " << ValueProfKindStr[VK] << ":\n" << VK << "\n";
    OS << "# NumValueSites:\n" << NS << "\n";
    for (uint32_t S = 0; S < NS; S++) {
      uint32_t ND = Func.getNumValueDataForSite(VK, S);
      OS << ND << "\n";
      std::unique_ptr<InstrProfValueData[]> VD = Func.getValueForSite(VK, S);
      for (uint32_t I = 0; I < ND; I++) {
        if (VK == IPVK_IndirectCallTarget)
          OS << Symtab.getFuncNameOrExternalSymbol(VD[I].Value) << ":"
             << VD[I].Count << "\n";
        else
          OS << VD[I].Value << ":" << VD[I].Count << "\n";
      }
    }
  }

  OS << "\n";
}

Error InstrProfWriter::writeText(raw_fd_ostream &OS) {
  if (ProfileKind == PF_IRLevel)
    OS << "# IR level Instrumentation Flag\n:ir\n";
  else if (ProfileKind == PF_IRLevelWithCS)
    OS << "# CSIR level Instrumentation Flag\n:csir\n";
  if (InstrEntryBBEnabled) 
    OS << "# Always instrument the function entry block\n:entry_first\n"; 
  InstrProfSymtab Symtab;

  using FuncPair = detail::DenseMapPair<uint64_t, InstrProfRecord>;
  using RecordType = std::pair<StringRef, FuncPair>;
  SmallVector<RecordType, 4> OrderedFuncData;

  for (const auto &I : FunctionData) {
    if (shouldEncodeData(I.getValue())) {
      if (Error E = Symtab.addFuncName(I.getKey()))
        return E;
      for (const auto &Func : I.getValue())
        OrderedFuncData.push_back(std::make_pair(I.getKey(), Func));
    }
  }

  llvm::sort(OrderedFuncData, [](const RecordType &A, const RecordType &B) {
    return std::tie(A.first, A.second.first) <
           std::tie(B.first, B.second.first);
  });

  for (const auto &record : OrderedFuncData) {
    const StringRef &Name = record.first;
    const FuncPair &Func = record.second;
    writeRecordInText(Name, Func.first, Func.second, Symtab, OS);
  }

  return Error::success();
}